Microarrays can be used as diagnostic clinical tools, providing a global overview of gene transcription in diseased tissues. Expression profiles can be easily obtained in a single assay and provide exhaustive information about molecular events that are often directly linked to the cause of a disease. However, the high complexity of the data are challenging. This article reviews recent efforts in bioinformatics and statistics to overcome this problem and make feasible the clinical analysis of gene expression profiles
AbstractNovel and powerful technologies such as DNA microarrays and proteomics have made possible th...
DNA microarrays are a potentially powerful technology for improving diagnostic classification, treat...
DNA Microarrays are a fast and efficient way to study the simultaneous expression of thousands of ge...
Microarrays can be used as diagnostic clinical tools, providing a global overview of gene transcript...
Microarray gene expression signatures hold great promise to improve diagnosis and prognosis of disea...
Microarrays provide the biological research community with tremendously rich, sensitive and detailed...
Gene expression profiling using micro-arrays is a modern approach for molecular diagnostics. In clin...
Microarray gene expression signatures hold great promise to improve diagnosis and prognosis of disea...
DNA microarrays are powerful tools for studying biological mechanisms and for developing prognostic ...
A biologically based and potentially powerful way to characterize human diseases has arisen from the...
Gene expression profiling using micro-arrays is a modern approach for molecular diagnostics. In clin...
Gene expression signatures from microarray experiments promise to provide important prognostic tools...
The development of several gene expression profiling methods, such as comparative genomic hybridizat...
Microarrays have revolutionized molecular biology and medicine, with thollsands of hybridizations ru...
The fundamental role of pattern recognition for gene-expression/microarray data in bioinformatics Hi...
AbstractNovel and powerful technologies such as DNA microarrays and proteomics have made possible th...
DNA microarrays are a potentially powerful technology for improving diagnostic classification, treat...
DNA Microarrays are a fast and efficient way to study the simultaneous expression of thousands of ge...
Microarrays can be used as diagnostic clinical tools, providing a global overview of gene transcript...
Microarray gene expression signatures hold great promise to improve diagnosis and prognosis of disea...
Microarrays provide the biological research community with tremendously rich, sensitive and detailed...
Gene expression profiling using micro-arrays is a modern approach for molecular diagnostics. In clin...
Microarray gene expression signatures hold great promise to improve diagnosis and prognosis of disea...
DNA microarrays are powerful tools for studying biological mechanisms and for developing prognostic ...
A biologically based and potentially powerful way to characterize human diseases has arisen from the...
Gene expression profiling using micro-arrays is a modern approach for molecular diagnostics. In clin...
Gene expression signatures from microarray experiments promise to provide important prognostic tools...
The development of several gene expression profiling methods, such as comparative genomic hybridizat...
Microarrays have revolutionized molecular biology and medicine, with thollsands of hybridizations ru...
The fundamental role of pattern recognition for gene-expression/microarray data in bioinformatics Hi...
AbstractNovel and powerful technologies such as DNA microarrays and proteomics have made possible th...
DNA microarrays are a potentially powerful technology for improving diagnostic classification, treat...
DNA Microarrays are a fast and efficient way to study the simultaneous expression of thousands of ge...